JP4448126B2 - Composite material processing equipment - Google Patents

Description

  The present invention relates to a processing apparatus for a composite material structure. The processing device is designed to be positioned relative to the moving surface. The processing apparatus comprises a frame disposed in the vicinity of the moving surface, a blade holder formed of a composite material as an essentially complete member and connected to the frame, adapted to the blade holder, and having a blade holder A blade with an end adapted to be positioned in contact with the moving surface by moving, and adapted to the blade holder and one end positioned on the blade holder, the other end being more than the blade holder And a separate support blade extending closer to the end.

  In this processing apparatus, blade holders made entirely of composite material have been used for a short period of time. One known blade holder located on a paper machine has an arm part, which is attached to a frame formed by a beam. The arm part extends with the clamp part, which is inserted into the gap for the blade. The blade holder having a composite material structure is lighter and more durable than a conventional metal blade holder. For example, by placing reinforcing fibers, the blade holder can be made more adaptable to the surface. Nevertheless, the blade holder is rigid in the blade loading direction, ie the machine direction. In addition, the composite structure can be restored to its original shape even after a large deformation.

  Conventionally, the blade holder is attached to the frame using screws. This requires screw removal and blade holder replacement during installation, which is time consuming and requires work inside the paper machine. In some cases, even the entire processing device needs to be removed from the paper machine in order to install the blade holder. In addition, the arm portion holes required by the screws create discontinuities in the blade holder, reducing its durability.

  It is an object of the present invention to provide a novel composite material processing apparatus that is easier to use and repair, and more versatile than before.

  The features characterizing the invention will become apparent from the appended claims. In the treatment device according to the invention, the entire blade holder can be replaced in a simple manner because of the novel design. This facilitates quick and easy installation and replacement of the blade holder. Regardless of the unexpected structure, the blade holder may additionally comprise, for example, a loading element. The blade holder can be easily retrofitted to existing processing equipment without major changes. On the other hand, the design of new processing equipment can be simplified than before. In addition, using appropriate dimensions and design, the components of the processing equipment can be changed independently of each other, which allows the processing equipment characteristics to be precisely adjusted as desired.

  The invention is described in detail below with reference to the accompanying drawings, which illustrate several embodiments of the invention.

  FIG. 1 shows a processing device according to the invention adapted in connection with a moving surface 10. Here, the moving surface 10 is a paper machine roll 11, only a part of which is shown. In general, the purpose of a processing device is to process a moving surface. In the doctoring example, the purpose of the doctoring is to remove impurities from the surface or the web itself, for example at some paper machine locations. In paper and cardboard machines and other forming machines, the moving surface also includes various cylinders and structured surfaces. The processing device is used, for example, for web coating. In that case, the coating paste is applied to the surface of the moving web. This is illustrated in FIG. 5a. In addition, the processing apparatus includes a frame 12 disposed in the vicinity of the surface 10 to be processed. In FIG. 1, the frame 12 is a beam 13. The beam 13 is supported by a shaft 14 to allow rotation relative to the paper machine structure. In practice, the beam is locked in place, for example using a tightening screw (not shown). On the other hand, in order to improve the result of the doctor treatment, the beam can be swiveled towards the surface by a loading element.

  The processing device also includes a blade holder 15. In order to form an essentially complete part, the blade holder is made of a composite material. The advantages of this type of blade holder are detailed below. The blade holder 15 is correspondingly attached to the frame 12 (FIG. 1). The actual processing is provided by a blade 16 fitted to the blade holder 15, whose dimensions and materials can vary depending on the application. In the proposed application, both doctor blades and coated blades are described. The blade 16 includes a doctor processing tip 17. The doctor processing tip 17 is disposed so as to come into contact with the moving surface 10 by moving the blade holder 15. In this way, the moving surface 10 is processed. FIG. 1 shows a so-called rigid blade holder 15 whose movement is created by turning the beam 13. The proposed blade holder 15 also includes a separate support blade 18, which is positioned in the blade holder near one end. On the other hand, the other end of the support blade 18 extends closer to the end portion 17 than the blade holder 15, thereby supporting the blade 16. The operation of the support blade 18 is also described in detail below. The blade 16 shown is new. In a worn blade, the tip is oriented in the other direction. On the other hand, the tip chamfer corresponding to the worn blade can actually be pre-polished against the blade. 1 and 5a, the direction of movement of the surface 10 is indicated by an arrow.

  According to the present invention, the blade holder 15 is unexpectedly detachably adapted to the frame 12 using a pair of form-lock opposing clamps 19. In addition, the shape engagement of the opposing clamps 20 and 21 is configured to be rigid in the lateral direction of the blade 16 and essentially free in the longitudinal direction of the blade 16. Thereby, the blade holder can be moved in the longitudinal direction of the blade, that is, in the transverse direction of the machine. In practice, for example, in a paper machine, the blade holder can be installed by simply pushing it in from the side, and correspondingly the blade holder can be removed by pulling it out to the side. Despite this rapid clamping, the shape engagement is rigid in the lateral direction of the blade. This ensures that the blade holder is reliably maintained at a predetermined position in the machine direction. For additional safety during operation, cross-machine mobility can be prevented using, for example, locking pins. On the other hand, with proper material selection, this transverse mobility can be exploited for vibration. In other words, the blade can be moved relative to the surface by moving only the blade holder. All parts are preferably made of composite material. As a result, for example, the scratching effect of metal rivets can be avoided.

  In the proposed processing apparatus, the first counter clamp 20 forming part of the counter clamp 19 is a profiled shoulder. On the other hand, the 2nd counter clamp 21 is comprised so that the 1st counter clamp 20 may be covered by the opposing surface essentially. In this way, the second counter clamp 21 forms a groove for the shoulder-shaped first counter clamp. In principle, the location of the opposing clamp can vary. However, in the blade holder, it is preferable that the opposing clamp is disposed in a rear part parallel to the blade holder. In this case, the blade is attached to the front portion of the blade holder. Here, the front part refers to the blade holder part closest to the surface to be doctored. Using the proposed structure of the opposing clamp, the blade holder can be freely positioned and the blade holder can be best designed for loading and blade mounting. At the same time, disadvantageous protrusions that collect impurities and are susceptible to damage are avoided.

  Existing frames typically include threaded holes for mounting blade holders. In this case, it is easy to attach the blade holder 15 by using the adapter member 22 according to the present invention. Thus, in general, one of the opposing clamps forming a set of opposing clamps is placed on a separate adapter member to be attached to the frame. In the figure, the fastening screws are illustrated by broken lines. A first embodiment of the adapter member 22 is illustrated in FIGS. 1, 2a and 2b. Here, the adapter member 22 forms a corresponding clamp 21 for the shoulder-shaped counter clamp 20 formed on the blade holder 15 together with the frame 12. The proposed structure is extremely compact and the adapter member 22 is easily attached to the frame 12. In addition, even with an appropriate machining method, even the arm part of a known composite structure blade holder can be transformed into a shoulder-like counter clamp. In practice, however, it is preferred to bring the blade holder to its final state in connection with manufacture, thus maintaining a complete blade holder structure. The same reference numbers are used for functionally identical members.

  The following embodiment of the adapter member 22 is shown in FIGS. 3a and 3b. Here, one of the opposing clamps 20 or 21 is completely formed in the adapter member 22. In this way, the adapter member 22 can be permanently attached to the frame. In FIG. 3 a, the adapter member 22 includes a shoulder-like counter clamp 20, whereas the groove-like counter clamp 21 is located on the blade holder 15. This ensures that the shape engagement is well protected from impurities. In addition, the blade holder 15 can be advantageously designed for manufacturing. In the processing apparatus shown in FIG. 3 a, the adapter member 22 also has a curved portion 23 to compensate for changes in the position of the blade 16 relative to the conventional blade holder. Because of the adapter member 22, the blade 16 extends proximate to the surface 10. In this case, the blade angle α of the blade 16 with respect to the surface changes very frequently. According to FIG. 1, as the length of the blade holder 15 increases, the blade angle α decreases, which normally negatively affects the doctor treatment result. This problem can be avoided by moving the blade holder vertically, or at least can be avoided by adjusting the beam and its position. If required, the adapter member with the curvilinear portion can be installed in reverse on the frame. The straightness and shape of the curve can also vary depending on the application.

  For example, when manufacturing a new processing apparatus according to the present invention, the adapter member may be eliminated. This is possible by placing on the frame 12 one of the counter clamps 20 or 21 forming a set of counter clamps 19. This is illustrated in the embodiment of FIGS. 3c and 3d. In particular, the blade holder 15 shown in FIG. 3d can be very short, which allows the blade holder to be positioned in a limited position.

  Today, adjustable blade holders are also used. There, the blade holder rotates so that the frame remains in place. In addition to the rigid blade holder described above, the blade holder according to the invention can be configured to be adjustable. In general, the opposing clamps forming a set of opposing clamps are configured as functional articulations with each other. In this case, it is possible to change the angle between the opposing clamps while maintaining the blade's lateral engagement unchanged. An embodiment of an adjustable or comb-loadable blade holder 15 is shown in FIG. 4a. The principle of the blade holder 15 corresponds to the principle of the blade holder 15 shown in FIG. 3a, except that the opposing clamp 21 of the blade holder 15 is wider. This ensures that the shape engagement is maintained while the operation is still possible. There is a loading element 24 between the opposing clamp 20 and the blade holder 15 to define the operation. In the embodiment shown in FIG. 4 a, the loading element 24 is arranged between the adapter member 22 and the blade holder 15.

  Due to the limited structure, positioning of the loading element can be difficult. The lack of space can be avoided by configuring at least one means on one or both of the opposing clamps for the loading element. In FIG. 4 a, the blade holder 15 has such means on both sides of the adapter member 22. The upper means has a loading hose 26 known as such, and the lower means has a spring member 27. FIG. 4b illustrates the upper means 25 and the lower means 25 ′ in more detail. The processing apparatus in question is configured such that the spring member 27 has a tendency to rotate the blade 16 upward. In contrast, the blade 16 can be loaded against the surface by adjusting the pressure in the loading hose 26. The operation of the blade holder 15 is indicated by an arrow in FIG. 4a which shows a particularly advantageous solution for a new processing device according to the invention. In this case, only one loading hose is required to use the blade holder. For existing processing equipment including two loading hoses, a blade holder with means for two loading hoses (not shown) may be selected.

  FIG. 5b shows another embodiment of the loadable blade holder. Again, the operation of the blade holder 15 is provided by the loading hose 26. On the other hand, the restoring force is generated by the other loading hose 26 ′ or the spring member 27. Here, the adapter member 22 extends on both sides of the frame 12. Fixing is ensured by screws.

  The design of the blade holder according to the present invention allows the use of different blades. FIG. 3a illustrates a thick plastic blade and FIGS. 3b-3d illustrate a thin metal or composite blade. Because of the blade holder design, thin blades can be fastened using several different methods. In FIG. 3 c, a conventional rivet 28 is used, whereas in FIG. 3 b a composite adapter 29 is attached using a special adapter 29. In a similar composite blade shown in FIG. 3d, there is a larger and differently shaped extension 30 at the rear. In this case, a separate adapter is not necessary. For the blade 16, the blade holder also has an air gap 32 defined in the vicinity of the support blade 18 by a clamp 33.

  In the processing device, the function of the support blade is also essential. According to the present invention, the support blade 18 is similar to the blade 16. In addition, the end of the support blade 18 to be fitted to the blade holder 15 has a shape-engageable detent 34 for removably securing the support blade 18 to the blade holder 15. In this way, like the blade holder, the support blade has a quick clamping system and allows its replacement. Further, know-how and manufacturing methods associated with the blades can be utilized to select and manufacture the support blades, which simplifies the manufacturing of the processing equipment and reduces costs.

  FIG. 2 b shows the application for the support blade 18. Here, in order to adjust the position of the support blade 18 in the lateral direction of the blade 16, the blade holder 15 has two fixing points 31 for detents 34. In other words, the blade holder 15 has two optional fixing points 31 for connecting the support blade 18. In this case, for example, it is possible to use two differently sized support blades in the blade holder. Secondly, the groove formed by this fixing point 31 can be used, for example, to supply lubricant to the blade and further to the surface to be treated. It is also possible, for example, to adapt the pipe to the groove for the lubricant, thus preventing the application of pressure to the blade holder. In addition, the pipe can be easily sealed, and the delivery of lubricant is accurate.

  Overall, the manufacture of the processing device according to the invention is less complicated than in the past. All members are preferably manufactured using a pultrusion method. This ensures that the member is ready for use without significant machining operations. In addition, when using a pultrusion method, the reinforcing fibers can be placed in the member in a special manner. Preferably, there are significantly fewer reinforcing fibers in the cross machine direction than in the machine direction. In this way, the blades, support blades and blade holders and even adapter members adapt to the shape of the surface to be treated, if any. In other words, the entire processing apparatus is controllably flexible in the cross machine direction. This eliminates, among other things, processing equipment vibration problems and non-uniform blade wear. In addition, known fine screws designed for mold control are not required. Instead, the main part of the reinforcing fiber is found in the longitudinal direction of the machine. In this case, the processing device can be loaded against the surface. In other words, the member is rigid to transmit the force.

  The structure described above also allows for rapid adjustment of the processing equipment. Various types of blade holders can be attached to the frame, and similarly, various types of blades and support blades can be quickly replaced within the blade holder. Thus, the combination suitable for each situation can be obtained by exchanging members. In addition, because of the removable support blade, the blade holder can be totally removed. This is easy outside the machine as the entire blade holder can be removed from the machine.

  The processing apparatus of the composite material structure is also advantageous in terms of operation. First, for example, the tested blade holder weighs only 3 kg / m, in which case there is no bending due to its own weight. In addition, the blade holder can be manually installed in the processor without a crane or other assistance. In addition, the composite structure withstands fairly sudden impacts and returns to its original shape despite large deformations. On the other hand, when damaged, the composite structure instantaneously breaks down entirely, thus functioning as a special safety fuse. In the case of damage to the blade holder, the blade holder can be replaced with a new blade holder without long-term non-operational state of the processing apparatus. Damage also saves other structures in the processing equipment. The operation of the processing apparatus can be easily monitored, for example, by mounting a diaphragm sensor between the blade and the support blade to determine the loading pressure profile.

  The processing device according to the present invention is simple to manufacture, but has a variety of uses. In addition, processing equipment installation and component replacement is quick, which reduces manufacturing interruptions. In particular, the blade holder is lightweight and is therefore easy to store and handle. In addition, when using the blade holder, less force is required than before. Another notable feature is that the various members can be combined in the appropriate combination for each situation. As a result, the desired doctor processing result is obtained at each position and when the position geometry changes, for example, when a specific position of a roll having a diameter different from the diameter of the previously used roll changes. . In addition, even when changing manufacturing parameters, the processor can be reset during a grade change shutdown, which was not possible with known processors.

FIG. 2 is a side view of a processing device according to the present invention arranged in relation to a moving surface. FIG. 2A is an enlarged view showing the blade holder shown in FIG. 1, and FIG. 2B is a transverse sectional view showing the blade holder shown in FIG. a is a side view illustrating various applications of a blade holder according to the present invention, b is a side view illustrating various applications of a blade holder according to the present invention, and c is according to the present invention. FIG. 4 is a side view showing various applications of the blade holder, and d is a side view showing various applications of the blade holder according to the present invention. a is a cross-sectional view showing a blade holder according to the invention with a loading element, only a blade holder a. a is a side view showing another application of the processing apparatus according to the present invention, and b is a cross-sectional view showing another application of a blade holder provided with a loading element.

Claims (10)

A frame arranged near the moving surface in the paper machine ;
A blade holder formed of a composite material including reinforcing fibers and connected to the frame to form an essentially complete member;
A blade adapted to the blade holder and including an end arranged to be positioned in contact with the moving surface by moving the blade holder;
Associated with the moving surface, adapted to the blade holder and including a separate support blade having one end positioned on the blade holder and the other end extending closer to the end than the blade holder A composite material processing device designed to be positioned as:
The blade holder is removably adapted to the frame using a set of shape engageable opposing clamps, the shape engagement being rigidly configured in the lateral direction of the blade, whereas Configured essentially freely in the longitudinal direction of the blade ,
The support blade includes a detent at one end of the support blade to be positioned on the blade holder for removably connecting the support blade to the blade holder;
An apparatus for processing a moving surface in a paper machine .   The first opposed clamp forming the set of opposed clamps is a mold shoulder and is essentially configured to be covered by a second opposed clamp on opposite sides. Processing equipment.   3. The blade holder according to claim 1, wherein the opposed clamp is disposed at a rear portion parallel to the blade holder in a state where the blade is attached to a front portion of the blade holder. Processing equipment.   4. One of the counter clamps forming the set of counter clamps is arranged on a separate adapter member designed to be connected to the frame. The processing apparatus according to item 1.   4. The processing apparatus according to claim 1, wherein one of the opposing clamps forming the set of opposing clamps is disposed on the frame. 5.   The counter clamps are configured as functional linkages with each other, and the angle between the counter clamps can be changed while the lateral engagement of the blades remains unchanged. The processing apparatus according to any one of 5.   The processing apparatus according to claim 6, wherein a loading element is provided between the opposing clamp and the blade holder.   8. The processing apparatus of claim 7, wherein one or both of the opposing clamps have at least one means for the loading element.   The processing apparatus according to claim 7, wherein the loading element is formed of a loading hose and / or a spring member. The processing apparatus according to claim 9 , wherein the blade holder has at least two fixing points for adjusting a position of the support blade in a lateral direction of the blade.

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